The shape of biological structures, ranging from flower petals to the limbs or organs of animals, is often naturally best ...
Researchers at Hebrew University use RNA trans-splicing to program cells for disease detection ...
Oscillatory dynamics in fundamental biological processes, such as circadian clocks, segmentation and transcription factor responses, requires precise quantitative control for proper cell regulation ...
Cells naturally process external signals through intricate genetic circuits, enabling the adaptation to diverse environments. These circuits rely on complex, nonlinear interactions among genes and ...
A new suggestion that complexity increases over time, not just in living organisms but in the nonliving world, promises to rewrite notions of time and evolution. In 1950 the Italian physicist Enrico ...
A research team at Marburg University has investigated one of the largest enzyme complexes found in nature to date and ...
In 2020, researchers engineered living, programmable organisms from Xenopus laevis, calling them xenobots, which could self-assemble and even reproduce. Building on this work, scientists later ...
Scientists want to increase their understanding of circadian rhythms, those internal 24-hour biological clock cycles of sleeping and waking that occur in organisms, ranging from humans to plants to ...
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